Stringent constraint on CPT violation with the synergy of T2K-II, NO extension, and JUNO

Abstract

Neutrino oscillation experiments have measured precisely the mass-squared differences of three neutrino mass eigenstates, and three leptonic mixing angles by utilizing both neutrino and anti-neutrino oscillations. The possible CPT violation may manifest itself in the difference of neutrino and anti-neutrino oscillation parameters, making these experiments promising tools for testing CPT invariance. We investigate empirically the sensitivity of the CPT test via the difference in mass-squared splittings ( m231 - m231) and in leptonic mixing angles (2θ23 - 2θ23) with the synergy of T2K-II, NO extension, and JUNO experiments. If the CPT symmetry is found to be conserved, the joint analysis of the three experiments will be able to establish limits of | m231 - m231| < 5.3× 10-3 eV2 and |2θ23 - 2θ23| < 0.10 at 3σ C. L. on the possible CPT violation. We find that with ( m231 - m231), the dependence of the statistical significance on the relevant parameters to exclude the CPT conservation is marginal, and that, if the difference in the best-fit values of m231 and m231 measured by MINOS(+) and NO persists as the true, the combined analysis will rule out the CPT conservation at 4σ C. L.. With the (2θ23 - 2θ23), the statistical significance to exclude CPT invariance depends strongly on the true value of θ23(θ23). In case of maximal mixing of θ23, the CPT conservation will be excluded at 3σ C. L. or more if the difference in the best-fit values of θ23 and θ23 remains as the true.